One of the main open problems in quantum communication is the design of efficient quantum-secured networks. This is a challenging goal, because it requires protocols that guarantee both unconditional security and high communication rates, while increasing the number of users. In this scenario, continuous-variable systems provide an ideal platform where high rates can be achieved by using off-the-shelf optical components. At the same time, the measurement-device independent architecture is also appealing for its feature of removing a substantial portion of practical weaknesses. Driven by these ideas, here we introduce a modular design of continuous-variable network where each individual module is a measurement-device-independent star network. In each module, the users send modulated coherent states to an untrusted relay, creating multipartite secret correlations via a generalized Bell detection. Using one-time pad between different modules, the network users may share a quantum-secure conference key over arbitrary distances at constant rate.
@article{arxiv.1709.06988,
title = {Modular network for high-rate quantum conferencing},
author = {Carlo Ottaviani and Cosmo Lupo and Riccardo Laurenza and Stefano Pirandola},
journal= {arXiv preprint arXiv:1709.06988},
year = {2020}
}
Comments
REVTeX. 18 pages (main text plus supplementary information), 8 figures